Chromium Code Reviews Chromium Code Reviews
Issue 1489233003:
TaskGraphRunner Group support (Closed)
Base URL: https://chromium.googlesource.com/chromium/src.git@refactor| Index: cc/raster/task_graph_work_queue.cc |
| diff --git a/cc/raster/task_graph_work_queue.cc b/cc/raster/task_graph_work_queue.cc |
| index 655a005b024804117fc9052a16ca20dd523868ca..b906c244658c82eed9a6e641c4b79ac0288826c1 100644 |
| --- a/cc/raster/task_graph_work_queue.cc |
| +++ b/cc/raster/task_graph_work_queue.cc |
| @@ -5,11 +5,41 @@ |
| #include "cc/raster/task_graph_work_queue.h" |
| #include <algorithm> |
| +#include <map> |
| #include <utility> |
| #include "base/trace_event/trace_event.h" |
| namespace cc { |
| +namespace { |
| + |
| +bool CompareTaskPriority(const TaskGraphWorkQueue::PrioritizedTask& a, |
| + const TaskGraphWorkQueue::PrioritizedTask& b) { |
| + // In this system, numerically lower priority is run first. |
| + return a.priority > b.priority; |
| +} |
| + |
| +class CompareTaskNamespacePriority { |
| + public: |
| + explicit CompareTaskNamespacePriority(uint16_t category) |
| + : category_(category) {} |
| + |
| + bool operator()(const TaskGraphWorkQueue::TaskNamespace* a, |
| + const TaskGraphWorkQueue::TaskNamespace* b) { |
| + DCHECK_GT(a->ready_to_run_tasks.count(category_), 0u); |
| + DCHECK_GT(b->ready_to_run_tasks.count(category_), 0u); |
| + |
| + // Compare based on task priority of the ready_to_run_tasks heap .front() |
| + // will hold the max element of the heap, except after pop_heap, when max |
| + // element is moved to .back(). |
| + return CompareTaskPriority(a->ready_to_run_tasks.at(category_).front(), |
| + b->ready_to_run_tasks.at(category_).front()); |
|
reveman
2015/12/04 20:55:51
ready_to_run_tasks[category_] instead?
ericrk
2015/12/09 22:56:43
Can't call operator[] on const maps (as it may nee
|
| + } |
| + |
| + private: |
| + uint16_t category_; |
| +}; |
| +} // namespace |
| TaskGraphWorkQueue::TaskNamespace::TaskNamespace() {} |
| @@ -66,14 +96,17 @@ void TaskGraphWorkQueue::ScheduleTasks(NamespaceToken token, TaskGraph* graph) { |
| node.task) != task_namespace.running_tasks.end()) |
| continue; |
| - task_namespace.ready_to_run_tasks.push_back( |
| - PrioritizedTask(node.task, &task_namespace, node.priority)); |
| + task_namespace.ready_to_run_tasks[node.category].push_back(PrioritizedTask( |
| + node.task, &task_namespace, node.category, node.priority)); |
| } |
| - // Rearrange the elements in |ready_to_run_tasks| in such a way that they |
| - // form a heap. |
| - std::make_heap(task_namespace.ready_to_run_tasks.begin(), |
| - task_namespace.ready_to_run_tasks.end(), CompareTaskPriority); |
| + // Rearrange the elements in each vector within |ready_to_run_tasks| in such a |
| + // way that they form a heap. |
| + for (auto& it : task_namespace.ready_to_run_tasks) { |
| + auto& ready_to_run_tasks = it.second; |
| + std::make_heap(ready_to_run_tasks.begin(), ready_to_run_tasks.end(), |
| + CompareTaskPriority); |
| + } |
| // Swap task graph. |
| task_namespace.graph.Swap(graph); |
| @@ -101,40 +134,61 @@ void TaskGraphWorkQueue::ScheduleTasks(NamespaceToken token, TaskGraph* graph) { |
| // Build new "ready to run" task namespaces queue. |
| ready_to_run_namespaces_.clear(); |
| - for (auto& it : namespaces_) { |
| - if (!it.second.ready_to_run_tasks.empty()) |
| - ready_to_run_namespaces_.push_back(&it.second); |
| + for (auto& namespace_it : namespaces_) { |
| + auto& task_namespace = namespace_it.second; |
| + for (auto& tasks_it : task_namespace.ready_to_run_tasks) { |
|
reveman
2015/12/04 20:55:51
nit: ready_to_run_tasks_it to be perfectly consist
ericrk
2015/12/09 22:56:43
Done.
|
| + uint16_t category = tasks_it.first; |
| + ready_to_run_namespaces_[category].push_back(&task_namespace); |
| + } |
| } |
| // Rearrange the task namespaces in |ready_to_run_namespaces| in such a |
| // way that they form a heap. |
| - std::make_heap(ready_to_run_namespaces_.begin(), |
| - ready_to_run_namespaces_.end(), CompareTaskNamespacePriority); |
| + for (auto& it : ready_to_run_namespaces_) { |
| + uint16_t category = it.first; |
| + auto& task_namespace = it.second; |
| + std::make_heap(task_namespace.begin(), task_namespace.end(), |
| + CompareTaskNamespacePriority(category)); |
| + } |
| } |
| -TaskGraphWorkQueue::PrioritizedTask TaskGraphWorkQueue::GetNextTaskToRun() { |
| - DCHECK(!ready_to_run_namespaces_.empty()); |
| +TaskGraphWorkQueue::PrioritizedTask TaskGraphWorkQueue::GetNextTaskToRun( |
| + uint16_t category) { |
| + DCHECK_GT(ready_to_run_namespaces_.count(category), 0u); |
|
reveman
2015/12/04 20:55:51
nit: this failing isn't really a problem but ready
ericrk
2015/12/09 22:56:43
yup = this made more sense when I was erasing thin
|
| + TaskNamespace::Vector& ready_to_run_namespaces = |
| + ready_to_run_namespaces_[category]; |
| - // Take top priority TaskNamespace from |ready_to_run_namespaces_|. |
| - std::pop_heap(ready_to_run_namespaces_.begin(), |
| - ready_to_run_namespaces_.end(), CompareTaskNamespacePriority); |
| - TaskNamespace* task_namespace = ready_to_run_namespaces_.back(); |
| - ready_to_run_namespaces_.pop_back(); |
| - DCHECK(!task_namespace->ready_to_run_tasks.empty()); |
| + // Take top priority TaskNamespace from |ready_to_run_namespaces|. |
| + std::pop_heap(ready_to_run_namespaces.begin(), ready_to_run_namespaces.end(), |
| + CompareTaskNamespacePriority(category)); |
| + TaskNamespace* task_namespace = ready_to_run_namespaces.back(); |
| + ready_to_run_namespaces.pop_back(); |
| + |
| + DCHECK_GT(task_namespace->ready_to_run_tasks.count(category), 0u); |
|
reveman
2015/12/04 20:55:51
same here, DCHECK(!empty()) instead?
ericrk
2015/12/09 22:56:43
done.
|
| + PrioritizedTask::Vector& ready_to_run_tasks = |
| + task_namespace->ready_to_run_tasks[category]; |
| // Take top priority task from |ready_to_run_tasks|. |
| - std::pop_heap(task_namespace->ready_to_run_tasks.begin(), |
| - task_namespace->ready_to_run_tasks.end(), CompareTaskPriority); |
| - PrioritizedTask task = task_namespace->ready_to_run_tasks.back(); |
| - task_namespace->ready_to_run_tasks.pop_back(); |
| + std::pop_heap(ready_to_run_tasks.begin(), ready_to_run_tasks.end(), |
| + CompareTaskPriority); |
| + PrioritizedTask task = ready_to_run_tasks.back(); |
| + ready_to_run_tasks.pop_back(); |
| - // Add task namespace back to |ready_to_run_namespaces_| if not empty after |
| + // Add task namespace back to |ready_to_run_namespaces| if not empty after |
| // taking top priority task. |
| - if (!task_namespace->ready_to_run_tasks.empty()) { |
| - ready_to_run_namespaces_.push_back(task_namespace); |
| - std::push_heap(ready_to_run_namespaces_.begin(), |
| - ready_to_run_namespaces_.end(), |
| - CompareTaskNamespacePriority); |
| + if (!ready_to_run_tasks.empty()) { |
| + ready_to_run_namespaces.push_back(task_namespace); |
| + std::push_heap(ready_to_run_namespaces.begin(), |
| + ready_to_run_namespaces.end(), |
| + CompareTaskNamespacePriority(category)); |
| + } else { |
| + // Task namespace is empty for this category, remove the entry from the map. |
| + task_namespace->ready_to_run_tasks.erase(category); |
| + } |
| + |
| + // If |ready_to_run_namespaces| is now empty, remove it from the map. |
| + if (ready_to_run_namespaces.empty()) { |
| + ready_to_run_namespaces_.erase(category); |
|
reveman
2015/12/04 20:55:51
Will this and the above erase not cause a large am
ericrk
2015/12/09 22:56:43
Got rid of the erasing - took some benchmarks and
|
| } |
| // Add task to |running_tasks|. |
| @@ -164,19 +218,26 @@ void TaskGraphWorkQueue::CompleteTask(const PrioritizedTask& completed_task) { |
| dependent_node.dependencies--; |
| // Task is ready if it has no dependencies. Add it to |ready_to_run_tasks_|. |
| if (!dependent_node.dependencies) { |
| - bool was_empty = task_namespace->ready_to_run_tasks.empty(); |
| - task_namespace->ready_to_run_tasks.push_back(PrioritizedTask( |
| - dependent_node.task, task_namespace, dependent_node.priority)); |
| - std::push_heap(task_namespace->ready_to_run_tasks.begin(), |
| - task_namespace->ready_to_run_tasks.end(), |
| + PrioritizedTask::Vector& ready_to_run_tasks = |
| + task_namespace->ready_to_run_tasks[dependent_node.category]; |
| + |
| + bool was_empty = ready_to_run_tasks.empty(); |
| + ready_to_run_tasks.push_back( |
| + PrioritizedTask(dependent_node.task, task_namespace, |
| + dependent_node.category, dependent_node.priority)); |
| + std::push_heap(ready_to_run_tasks.begin(), ready_to_run_tasks.end(), |
| CompareTaskPriority); |
| + |
| // Task namespace is ready if it has at least one ready to run task. Add |
| // it to |ready_to_run_namespaces_| if it just become ready. |
| if (was_empty) { |
| - DCHECK(std::find(ready_to_run_namespaces_.begin(), |
| - ready_to_run_namespaces_.end(), |
| - task_namespace) == ready_to_run_namespaces_.end()); |
| - ready_to_run_namespaces_.push_back(task_namespace); |
| + TaskNamespace::Vector& ready_to_run_namespaces = |
| + ready_to_run_namespaces_[dependent_node.category]; |
| + |
| + DCHECK(std::find(ready_to_run_namespaces.begin(), |
| + ready_to_run_namespaces.end(), |
| + task_namespace) == ready_to_run_namespaces.end()); |
| + ready_to_run_namespaces.push_back(task_namespace); |
| } |
| ready_to_run_namespaces_has_heap_properties = false; |
| } |
| @@ -185,9 +246,13 @@ void TaskGraphWorkQueue::CompleteTask(const PrioritizedTask& completed_task) { |
| // Rearrange the task namespaces in |ready_to_run_namespaces_| in such a way |
| // that they yet again form a heap. |
| if (!ready_to_run_namespaces_has_heap_properties) { |
| - std::make_heap(ready_to_run_namespaces_.begin(), |
| - ready_to_run_namespaces_.end(), |
| - CompareTaskNamespacePriority); |
| + for (auto& it : ready_to_run_namespaces_) { |
| + uint16_t category = it.first; |
| + auto& ready_to_run_namespaces = it.second; |
| + std::make_heap(ready_to_run_namespaces.begin(), |
| + ready_to_run_namespaces.end(), |
| + CompareTaskNamespacePriority(category)); |
| + } |
| } |
| // Finally add task to |completed_tasks_|. |
| @@ -209,7 +274,7 @@ void TaskGraphWorkQueue::CollectCompletedTasks(NamespaceToken token, |
| // Remove namespace if finished running tasks. |
| DCHECK_EQ(0u, task_namespace.completed_tasks.size()); |
| - DCHECK_EQ(0u, task_namespace.ready_to_run_tasks.size()); |
| + DCHECK(task_namespace.ready_to_run_tasks.empty()); |
| DCHECK_EQ(0u, task_namespace.running_tasks.size()); |
| namespaces_.erase(it); |
| } |
| @@ -228,4 +293,10 @@ bool TaskGraphWorkQueue::DependencyMismatch(const TaskGraph* graph) { |
| return false; |
| } |
| +void TaskGraphWorkQueue::UncategorizeTaskGraph(TaskGraph* graph) { |
| + for (auto& node : graph->nodes) { |
| + node.category = 0u; |
| + } |
| +} |
| + |
| } // namespace cc |
